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12.5202.0210 Mohammad Sapta Heriyawan, 12.5202.0210
Politeknik Ilmu Pelayaran Semarang
Automotive Engineering Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Economics, Econometrics & Finance Education Electrical & Electronics Engineering Energy Engineering Environmental Science Languange, Linguistic, Communication & Media Mathematics Mechanical Engineering Public Health Transportation Other

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Design and Implementation of Tank Level Monitoring System Using Internet of Things Heriyawan, Mohammad Sapta; Santiko, Tony; Pujianto, Erli
International Journal of Artificial Intelligence Research Vol 9, No 1.1 (2025)
Publisher : Universitas Dharma Wacana

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29099/ijair.v9i1.1.1559

Abstract

This study seeks to create and implement an IoT-based tank level monitoring system to rectify the inefficiencies associated with human sounding methods typically employed on ships.  Manual measuring methods can lead to protracted processes and human errors, thereby affecting data precision and operational safety.  This research addresses these restrictions by integrating an ESP32 microcontroller, HC-SR04 ultrasonic sensor, and the Blynk IoT platform to develop an automated monitoring solution that transmits real-time water level data to a mobile dashboard.  The system was developed utilizing the Waterfall Model, which includes the phases of requirement analysis, system design, implementation, testing, and maintenance.  The proposed system exhibited great accuracy within a range of 2–400 cm and maintained stable Wi-Fi connectivity without signal loss, achieved through iterative development and expert validation.  The Blynk interface effectively provided real-time viewing of water height and volume.  An analysis of user input revealed a favourable reaction, with an average rating of 3.8 on a 5-point scale, indicating system usability and efficacy.  The results validate that the suggested IoT-based monitoring system provides a dependable, cost-effective, and scalable substitute for manual measurement, enhancing both operational efficiency and maritime technology education.
Android Based Fuel Calculation System Application On MV. Pacific Bulk Prasetyono, FX. Mario Dwi; Hermanto, Andy Wahyu; Heriyawan, Mohammad Sapta
International Journal of Artificial Intelligence Research Vol 8, No 1.1 (2024)
Publisher : Universitas Dharma Wacana

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29099/ijair.v8i1.1.1277

Abstract

The work of calculating ship fuel for machinists can now be changed to automatic in the Android application . With this, work will be faster and more accurate. The aim of the research is to find out how to make applications and how the Android-based fuel calculation system works on MVs. Pacific Bulk. The method used is research and development and Bord and Gall development with 10 steps. The research results show that the use of Android applications in calculating fuel on MV. Pacific Bulk is very useful for making it easier and faster for machinists to calculate ship fuel. The design process for the Android-based fuel calculation application on the MV Pacific Bulk Ship was carried out using Android Studio as an Integrated Development Environment (IDE). It can be operated using an Android cellphone which will make it easier to calculate the remaining fuel on the MV. Pacific Bulk Ship
Pengembangan Alat Peraga Kapal Berbasis Arduino Sebagai Media Pembelajaran di Politeknik Ilmu Pelayaran Tony Santiko; Mohammad Sapta Heriyawan; Zalza Wulandari Idris
Didaktika: Jurnal Kependidikan Vol. 14 No. 3 Agustus (2025): Didaktika Jurnal Kependidikan
Publisher : South Sulawesi Education Development (SSED)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58230/27454312.2542

Abstract

Penelitian ini bertujuan untuk mengembangkan sebuah alat peraga kapal berbasis mikrokontroler Arduino sebagai media pembelajaran interaktif di Politeknik Ilmu Pelayaran (PIP) Makassar. Alat ini dirancang untuk merepresentasikan sistem kerja kapal secara sederhana namun fungsional, sehingga dapat membantu taruna memahami prinsip dasar navigasi, pengendalian kapal, serta pemanfaatan teknologi digital dalam dunia maritim. Sistem dikendalikan menggunakan Arduino UNO dan dilengkapi dengan komponen seperti motor DC sebagai penggerak utama, servo motor untuk sistem kemudi, serta sensor-sensor pendukung seperti sensor jarak (ultrasonik), suhu, dan cahaya untuk memperkaya pembelajaran berbasis data. Proses pengembangan meliputi tahap desain, perakitan fisik alat, pemrograman, serta pengujian fungsi. Hasil pengujian menunjukkan bahwa alat peraga dapat beroperasi dengan baik, memberikan umpan balik visual dan gerakan yang responsif, serta mampu mensimulasikan pengendalian kapal dalam skala kecil. Implementasi alat ini diharapkan mampu meningkatkan pemahaman praktis taruna terhadap sistem kapal dan teknologi Arduino secara menyeluruh, serta mendorong inovasi pembelajaran berbasis teknologi di bidang pendidikan maritim.
Co-Authors Amad Narto Andy Wahyu Hermanto, Andy Wahyu Darul Prayogo Gymnastiar, Agum Hermanto, Andy Janny Adriani Djari Janny Andriani Djari MARUF NUR AZIZ Mohammad Annurizqi Prasetyono, FX. Mario Dwi Pujianto, Erli Rivai, Rizal Suharto, Wakhid Tony Santiko Tony Santiko Tony Santiko Widhy Setyowati Zalza Wulandari Idris